利用TD-MS-RAPD-PCR分析棉花胞嘧啶甲基化多态性

IF 0.4 Q4 PLANT SCIENCES
M. Karaca, A. Aydin, Ayse Gul Ince
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引用次数: 6

摘要

DNA的甲基化和组蛋白的化学修饰是植物中研究最多的两种表观遗传机制。表观遗传学研究中存在低通量和高通量DNA甲基化检测技术。本研究采用触地聚合酶链反应甲基化敏感-随机扩增多态性DNA (TD-MSRAPD)技术研究了3个棉花品种胞嘧啶甲基化差异;德克萨斯标记1号(TM-1)、皮马3-79(3-79)和Maydos Yerlisi (MY),分别属于棉属、巴氏棉属和草属。从这些品种的成熟种子中提取的基因组DNA样本在接触聚合酶链反应之前用相对甲基化不敏感的限制性内切酶MspI和甲基化敏感的限制性内切酶HpaII处理。在16条引物中,有3条引物(AT03、W15和C08)在3个品种间存在甲基化多态性。TD-MS-RAPD-PCR方法成本低,方法简单,仪器简单,在我们的实验室中使用常规的DNA热循环仪和DNA凝胶电泳系统即可进行基本设置,但该方法在棉花中检测到的甲基化多态性水平很低。我们认为,3种棉花的低多态性可能是由于CCGG位点在棉花基因组中的发生率较低。我们也注意到TDMS- RAPD-PCR方法可用于表观遗传学研究的初级扫描研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Cytosine methylation polymorphisms in cotton using TD-MS-RAPD-PCR
Methylation in DNA and chemical modification in histone proteins are the two most studied epigenetic mechanisms in plants. There exist low-throughput and high-throughput DNA methylation detection techniques in epigenetic research. In this study, touch-down polymerase chain reactions methylation sensitive-random amplified polymorphic DNA (TD-MSRAPD) technique was used to investigate cytosine methylation differences among three cotton varieties; Texas Marker 1 (TM-1), Pima 3-79 (3-79) and Maydos Yerlisi (MY), belonging to Gossypium hirsutum L., G. barbadense L., and G. herbaceum L., respectively. Genomic DNA samples extracted from the mature seeds of these varieties were treated with MspI, a relative methylation-insensitive restriction enzyme and HpaII, a methylation-sensitive restriction enzyme before touch-down polymerase chain reactions. Among 16 oligonucleotide primers used, three primers (AT03, W15, and C08) resulted in methylation polymorphisms among three varieties. TD-MS-RAPD-PCR method was cost-effective, required a simple method and basic instrumentation, and could easily be performed in our laboratory with basic setup using a regular DNA thermal cycler and DNA gel electrophoresis system, however, the level of methylation polymorphisms detected with this method were very low in cotton. We concluded that the low level of polymorphisms among the three cotton species were probably due to low occurrences of CCGG sites within the cotton genome. We also noted that TDMS- RAPD-PCR method could be used in primary scanning studies in epigenetic research.
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来源期刊
Modern Phytomorphology
Modern Phytomorphology PLANT SCIENCES-
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